Patent application number | Description | Published |
20100105997 | CLOSED LOOP PARAMETER ADJUSTMENT FOR SENSOR MODULES OF AN IMPLANTABLE MEDICAL DEVICE - In general, the invention is directed toward an implantable medical device that includes a controller and a plurality of sensor modules. The controller may control the sensor modules to perform one or more sensor actions in order to facilitate a measurement. The sensor modules may store one or more operational parameters that control various aspects of the sensor actions performed by the sensor modules. The controller may automatically adjust one or more of the operational parameters based on results received from previous measurements in order to provide closed loop parameter adjustment of the operational parameters associated with the sensor modules. The controller may communicate with the sensor modules via a common bus. Example measurements include tissue perfusion measurements, blood oxygen sensing measurements, sonomicrometry measurements, and pressure measurements. | 04-29-2010 |
20100106220 | TIMING COORDINATION OF IMPLANTABLE MEDICAL SENSOR MODULES - In general, the disclosure is directed toward an implantable medical device that includes a plurality of sensor modules that are implanted within a patient. The sensor modules may cooperate with each other to coordinate the timing for performance of one or more sensor actions across the modules when making a measurement. Example measurements include tissue perfusion measurements, oxygen sensing measurements, sonomicrometry measurements, and pressure measurements. The coordination of the sensor modules may be controlled by a signal that is transmitted from a host controller to the sensor modules via a bus. In some examples, the bus may have two wires that transmit both timing information and data information to the sensor modules. The signal may be a signal that is substantially periodic, such as a pulsed signal. In additional examples, the signal may supply operating power and timing information to the sensor modules. | 04-29-2010 |
20100114195 | IMPLANTABLE MEDICAL DEVICE INCLUDING EXTRAVASCULAR CARDIAC STIMULATION AND NEUROSTIMULATION CAPABILITIES - An implantable medical device may deliver pacing, cardioversion, and/or defibrillation stimulation to a heart of a patient via extravascular electrodes and delivers electrical stimulation to a nonmyocardial tissue site to modulate the autonomic nervous system of the patient. The implantable medical device may include a cardiac therapy module that generates and delivers at least one of pacing, cardioversion, or defibrillation therapy to a patient via an extravascular electrode, and a neurostimulation therapy module that generates and delivers a neurostimulation signal to the patient via a neurostimulation electrode. The cardiac therapy module and neurostimulation therapy module may be disposed in a common housing of the medical device. In some examples, at least one common lead may electrically couple the neurostimulation electrode and the extravascular electrode to the neurostimulation and cardiac therapy modules, respectively. | 05-06-2010 |
20100114196 | IMPLANTABLE MEDICAL DEVICE CROSSTALK EVALUATION AND MITIGATION - Electrical crosstalk between two implantable medical devices or two different therapy modules of a common implantable medical device may be evaluated, and, in some examples, mitigated. In some examples, one of the implantable medical devices or therapy modules delivers electrical stimulation to a nonmyocardial tissue site or a nonvascular cardiac tissue site, and the other implantable medical device or therapy module delivers cardiac rhythm management therapy to a heart of the patient. | 05-06-2010 |
20100114197 | IMPLANTABLE MEDICAL DEVICE CROSSTALK EVALUATION AND MITIGATION - Electrical crosstalk between two implantable medical devices or two different therapy modules of a common implantable medical device may be evaluated, and, in some examples, mitigated. In some examples, one of the implantable medical devices or therapy modules delivers electrical stimulation to a nonmyocardial tissue site or a nonvascular cardiac tissue site, and the other implantable medical device or therapy module delivers cardiac rhythm management therapy to a heart of the patient. | 05-06-2010 |
20100114199 | IMPLANTABLE MEDICAL DEVICE CROSSTALK EVALUATION AND MITIGATION - Electrical crosstalk between two implantable medical devices or two different therapy modules of a common implantable medical device may be evaluated, and, in some examples, mitigated. In some examples, one of the implantable medical devices or therapy modules delivers electrical stimulation to a nonmyocardial tissue site or a nonvascular cardiac tissue site, and the other implantable medical device or therapy module delivers cardiac rhythm management therapy to a heart of the patient. | 05-06-2010 |
20100114208 | IMPLANTABLE MEDICAL DEVICE CROSSTALK EVALUATION AND MITIGATION - Electrical crosstalk between two implantable medical devices or two different therapy modules of a common implantable medical device may be evaluated, and, in some examples, mitigated. In some examples, one of the implantable medical devices or therapy modules delivers electrical stimulation to a nonmyocardial tissue site or a nonvascular cardiac tissue site, and the other implantable medical device or therapy module delivers cardiac rhythm management therapy to a heart of the patient. | 05-06-2010 |
20100114216 | INTERFERENCE MITIGATION FOR IMPLANTABLE DEVICE RECHARGING - A therapy or monitoring system may implement one or more techniques to mitigate interference between operation of a charging device that charges a first implantable medical device (IMD) implanted in a patient and a second IMD implanted in the patient. In some examples, the techniques may include modifying an operating parameter of the charging device in response to receiving an indication that a second IMD is implanted in the patient. The techniques also may include modifying an operating parameter of the second IMD in response to detecting the presence or operation of the charging device. | 05-06-2010 |
20100114241 | INTERFERENCE MITIGATION FOR IMPLANTABLE DEVICE RECHARGING - A therapy or monitoring system may implement one or more techniques to mitigate interference between operation of a charging device that charges a first implantable medical device (IMD) implanted in a patient and a second IMD implanted in the patient. In some examples, the techniques may include modifying an operating parameter of the charging device in response to receiving an indication that a second IMD is implanted in the patient. The techniques also may include modifying an operating parameter of the second IMD in response to detecting the presence or operation of the charging device. | 05-06-2010 |
20110190608 | OPTICAL SENSOR FOR MEDICAL DEVICE - An optical sensor for a medical device includes a fixed lens spacing between emit and receive modules to achieve target sensor sensitivity, while varying other sensor parameters in order to increase signal amplitude without increasing power demand. The size of at least one of emit and receive module lenses of an optical sensor, and the offset between the opto-electronic component and the respective lens of at least one of emit and receive modules is decreased to increase amplitude of the signal received by the receive module from the emit module. | 08-04-2011 |
20110190609 | OPTICAL SENSOR FOR MEDICAL DEVICE - An optical sensor for a medical device includes a fixed lens spacing between emit and receive modules to achieve target sensor sensitivity, while varying other sensor parameters in order to increase signal amplitude without increasing power demand. An optical sensor connected to a housing of a medical device includes a circuit board, an opto-electronic component, a wall, a lens, and a ferrule. The circuit board is arranged within the housing. The opto-electronic component is mounted on a surface of the circuit board. The wall protrudes from the surface of the circuit board and surrounds the opto-electronic component. The lens is offset from the surface of the circuit board. The ferrule is connected to the housing, the lens and the wall. An inner surface of the wall mates with an outer surface of the ferrule. | 08-04-2011 |
20110190610 | OPTICAL SENSOR FOR MEDICAL DEVICE - An optical sensor for a medical device includes a fixed lens spacing between emit and receive modules to achieve target sensor sensitivity, while varying other sensor parameters in order to increase signal amplitude without increasing power demand. The arrangement of an opto-electronic component within an optical sensor receive module is improved by masking the receive module lens with an opaque member to create a masked lens leading edge that is aligned with a leading edge of the opto-electronic component. | 08-04-2011 |